ablation gauge

简明释义

消融汁;

英英释义

An ablation gauge is a device used to measure the amount of material that has been removed from a surface due to processes such as erosion, melting, or vaporization.

消融测量仪是一种用于测量因侵蚀、熔化或气化等过程而从表面去除的材料数量的设备。

例句

1.The engineer calibrated the ablation gauge to measure the material loss during the test.

工程师校准了消融计以测量测试过程中材料的损失。

2.Using an ablation gauge can help in assessing the performance of thermal protection systems.

使用消融计可以帮助评估热保护系统的性能。

3.To ensure safety, the team monitored the ablation gauge closely during the re-entry phase.

为了确保安全,团队在再入阶段密切监测消融计

4.The research required precise readings from the ablation gauge to analyze the material's heat resistance.

研究需要来自消融计的精确读数,以分析材料的耐热性。

5.The ablation gauge indicated significant erosion on the surface of the spacecraft.

消融计显示出航天器表面有显著的侵蚀。

作文

In the field of aerospace engineering and materials science, the term ablation gauge plays a crucial role in understanding how materials behave under extreme conditions. An ablation gauge is a specialized instrument used to measure the rate at which material is removed from a surface when it is subjected to high temperatures or erosive environments. This process, known as ablation, is particularly important for materials used in spacecraft, missiles, and other high-performance applications where thermal protection is essential. The ability to accurately measure ablation rates can significantly impact the design and performance of these systems.One of the primary functions of an ablation gauge is to provide engineers with data that helps them evaluate the effectiveness of thermal protection materials. For example, during re-entry into the Earth's atmosphere, a spacecraft experiences extreme heat due to friction with air molecules. The thermal protection system must be able to withstand this heat without failing. By using an ablation gauge, engineers can determine how much material is lost during this process and whether the material will remain effective throughout the mission.The design of an ablation gauge often involves the use of advanced materials and technologies. Many gauges incorporate sensors that can detect temperature changes and material loss with high precision. These sensors may utilize thermocouples, infrared cameras, or laser scanning techniques to gather data. The information collected by an ablation gauge is then analyzed to understand the ablation characteristics of different materials under various conditions.Moreover, the results obtained from an ablation gauge can guide researchers in developing new materials that offer better performance. For instance, if a particular composite material shows a high ablation rate, scientists might modify its composition or structure to enhance its thermal stability. This iterative process of testing and refining materials is essential for advancing technology in fields such as aeronautics and astronautics.In addition to aerospace applications, ablation gauges are also used in other industries, such as automotive and energy production. In these sectors, understanding material degradation due to heat and erosion can lead to safer and more efficient designs. For example, in power plants, turbines may experience wear over time due to high-temperature gases. An ablation gauge can help monitor the condition of turbine blades and inform maintenance schedules, ultimately improving efficiency and reducing downtime.In conclusion, the ablation gauge is an indispensable tool in the study of material science and engineering. Its ability to measure the ablation rate provides critical insights that drive innovation and improve safety in high-performance applications. As technology continues to evolve, the role of ablation gauges will likely expand, leading to even greater advancements in material development and application across various industries.

在航空航天工程和材料科学领域,术语ablation gauge在理解材料在极端条件下的行为方面发挥着至关重要的作用。ablation gauge是一种专用仪器,用于测量当材料在高温或侵蚀环境下受到影响时,从表面去除的速率。这一过程称为烧蚀,特别重要的是用于航天器、导弹和其他高性能应用中的材料,在这些应用中,热保护至关重要。准确测量烧蚀速率的能力可以显著影响这些系统的设计和性能。ablation gauge的主要功能之一是为工程师提供数据,帮助他们评估热保护材料的有效性。例如,在重新进入地球大气层时,航天器由于与空气分子的摩擦而经历极端的热量。热保护系统必须能够承受这种热量而不失效。通过使用ablation gauge,工程师可以确定在此过程中损失了多少材料,以及该材料是否在整个任务期间保持有效。ablation gauge的设计通常涉及使用先进的材料和技术。许多仪器包含传感器,可以以高精度检测温度变化和材料损失。这些传感器可能利用热电偶、红外相机或激光扫描技术来收集数据。ablation gauge收集的信息随后被分析,以了解不同材料在各种条件下的烧蚀特性。此外,从ablation gauge获得的结果可以指导研究人员开发性能更好的新材料。例如,如果某种复合材料显示出较高的烧蚀速率,科学家可能会修改其成分或结构以增强其热稳定性。这种测试和改进材料的迭代过程对于推进航空和航天等领域的技术至关重要。除了航空航天应用外,ablation gauges还用于其他行业,如汽车和能源生产。在这些领域,了解由于热量和侵蚀造成的材料降解可以导致更安全和更高效的设计。例如,在发电厂中,涡轮机可能由于高温气体而随着时间的推移而经历磨损。ablation gauge可以帮助监测涡轮叶片的状况,并告知维护计划,从而最终提高效率并减少停机时间。总之,ablation gauge是材料科学和工程研究中不可或缺的工具。它测量烧蚀速率的能力提供了关键见解,推动创新并提高高性能应用的安全性。随着技术的不断发展,ablation gauges的作用可能会扩大,导致各个行业的材料开发和应用取得更大的进步。